| Internet-Draft | BGP QUIC Streams | May 2022 |
| Retana, et al. | Expires 12 November 2022 | [Page] |
This document specifies the use of QUIC Streams to support multiple BGP sessions over one connection in order to achieve high resiliency.¶
This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.¶
Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at https://datatracker.ietf.org/drafts/current/.¶
Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress."¶
This Internet-Draft will expire on 12 November 2022.¶
Copyright (c) 2022 IETF Trust and the persons identified as the document authors. All rights reserved.¶
This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (https://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Revised BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Revised BSD License.¶
The Border Gateway Protocol (BGP) [RFC4271] uses TCP as its transport protocol. BGP establishes peer relationships between routers using a TCP session on port 179. TCP also provides reliable packet communication.¶
Multiprotocol Extensions for BGP-4 (MP-BGP) [RFC4760] allow BGP to carry information for multiple Network Layer protocols. However, only a single TCP connection can reach the Established state between a pair of peers [RFC4271].¶
As pointed out by [I-D.ietf-idr-bgp-multisession], there are some disadvantages of using a single BGP session:¶
QUIC [RFC9000] is a UDP-based multiplexed and secure transport protocol. QUIC can provide low latency and encrypted transport with resilient connections. [I-D.chen-idr-bgp-over-quic] specifies the procedure to use BGP over QUIC. Complementary to it, this document specifies a mechanism to support multiple BGP sessions using QUIC streams.¶
Each BGP session operates independently. Thus, an error on one session has no impact on any other session. The Network Layer protocol(s) negotiated in the BGP OPEN message distinguish the sessions.¶
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.¶
QUIC [RFC9000] is a UDP-based secure transport protocol that provides connection-oriented and stateful interaction between a client and server. It integrates TLS and allows the exchange of application data as soon as possible.¶
In QUIC, application protocols exchange information via streams, and multiple streams can be multiplexed onto an underlying connection. Each stream is a separate unidirectional or bidirectional channel of "order stream of bytes." Moreover, each stream has flow control which limits bytes sent on a stream, together with flow control of the connection.¶
BGP over QUIC [I-D.chen-idr-bgp-over-quic] proposes different options to map streams. This document specifies a complementary and backward compatible mechanism to establish multiple BGP sessions using QUIC streams. An implementation can assign one or more Network Layer protocols to a BGP session.¶
A QUIC stream is created by sending a BGP OPEN message, and each stream MUST be bidirectional as described in Section 2.1 of [RFC9000]. In addition, the corresponding stream MUST end (clean termination) as described in Section 2.4 of [RFC9000] when a BGP session is terminated.¶
Section 5 describes the Connection Collision Detection procedure to be used with streams. Each BGP session operates independently, which means critical conditions (such as a malformed message) in one session won't affect others.¶
The MultiStream Capability (MSC) is defined to indicate that a BGP speaker supports multiple sessions as specified in this document. The capability [RFC5492] is defined as follows:¶
0 1 2 3 4 5 6 7 +-+-+-+-+-+-+-+-+ | Reserved | +-+-+-+-+-+-+-+-+¶
Flags: bitfield - MUST be set to zero and ignored by the receiver.¶
The MSC only applies when using BGP over QUIC [I-D.chen-idr-bgp-over-quic]. It MUST be included in all OPEN messages. It MUST be ignored otherwise.¶
This specification applies only if both peers advertise the MSC during the establishment of the "initial session." Otherwise, the processes specified in [I-D.chen-idr-bgp-over-quic] MUST be followed. In particular, if a peer that advertises the MSC doesn't receive an OPEN message with the MSC from its peer, it SHOULD NOT terminate the session.¶
Using the MSC allows peers to establish multiple BGP sessions, one per QUIC stream. Each new BGP session is established using a separate OPEN message [RFC4271] and MUST include the MSC. If both peers exchange the MSC in the "initial session," they MUST include it when establishing other sessions. Otherwise, the new session MUST be terminated, and the Error Subcode MUST be set to MultiStream Conflict (TBD2), defined in Section 4.¶
Once a BGP session is established, it follows the procedures specified in [RFC4271].¶
OPEN message error handling is defined in section 6.2 of [RFC4271]. This document introduces the following OPEN Message Error subcodes:¶
Section 3 recommends not terminating a session when only one peer supports the MSC. If such a BGP speaker does terminate the session, the Error Subcode MUST be set to Session Capability Mismatch (TBD3).¶
Any individual BGP session can be terminated as specified in [RFC4486]. If multiple sessions are to be terminated, then the procedure MUST be followed for each one.¶
Before creating a new session, a BGP speaker should check that no session exists for the same Network Layer protocol(s). If a session already exists, the BGP speaker SHOULD NOT attempt to create a new one.¶
If a pair of BGP speakers try to establish a BGP session with each other simultaneously, then two parallel sessions will be formed. In the case of BGP over QUIC, the IP addresses of the connection cannot be used to resolve collisions when using multiple streams.¶
To avoid connection collisions, a session is identified by the My Autonomous System and BGP Identifier fields pair in the OPEN message. In this context, a connection collision is the attempt to open a BGP session for which the set of Network Layer protocols is the same. One of the connections MUST be closed.¶
The connection collision is resolved using the extension specified in [RFC6286]. In other words, the session with the higher-valued BGP Identifier is preserved [RFC4271]. If the BGP Identifiers are identical, then the session with the larger ASN is preserved [RFC6286].¶
Upon receiving an OPEN message, the local system MUST examine all of its sessions in the OpenConfirm state. A BGP speaker MAY also examine sessions in an OpenSent state if it knows the BGP Identifier of the peer by means outside of the protocol. If among these sessions, there is one to a remote BGP speaker whose BGP Identifier and ASN pair equals the one in the OPEN message, and this session collides with the connection over which the OPEN message is received, then the local system performs the following collision resolution procedure:¶
Unless allowed via configuration, a connection collision with an existing BGP session in the Established state causes the closing of the newly created session.¶
Closing the BGP session (that results from the collision resolution procedure) is accomplished by sending the NOTIFICATION message with the Error Code Cease, Subcode Connection Collision Resolution (7) [RFC4486].¶
The modifications to BGP FSM is described in section 4.4 of [I-D.chen-idr-bgp-over-quic]. For simplicity and security reason, it is suggested that 1-RTT is used.¶
This specification does not modify BGP FSM, but the collision handling procedure should be replaced with the procedure described in this document.¶
A BGP speaker that doesn't understand the MSC will ignore it [RFC5492]. Section 3 recommends not terminating a session when only one peer supports the MSC. Instead, the operation will continue as specified in [I-D.chen-idr-bgp-over-quic].¶
One of the drawbacks of a single BGP session is that control plane messages for all supported Network Layer protocols use the same connection, which may cause resource contention.¶
QUIC [RFC9000] does not provide a mechanism for exchanging prioritization information. Instead, it recommends that implementations provide ways for an application to indicate the relative priority of streams, in this case, mapped to BGP sessions. An operator should prioritize BGP sessions (streams) that carry critical control plane information if the functionality is available. The definition of this functionality and the determination of the importance of a BGP session are both outside the scope of this document.¶
An example implementation is to have four priority (0-3) defined, and smaller number means higher priority. Each AFI/SAFI should be assigned a default priority and optional configuration to modify the default value. For example, IPv4 and IPv6 unicast AFI/SAFI (1/1 and 2/1) may have priority of 1, while BGP-LS (16388/71 and 16388/72) may have a priority of 3, and BGP FlowSpec (1/133 and 1/134) may have a priority of 4.¶
A configuration command SHOULD be implemented to allow grouping of some AFI/SAFIs into one session.¶
This document specifies how to establish multiple BGP sessions over a single QUIC connection. The general operation of BGP is not changed, nor is its security model. The security considerations of [I-D.chen-idr-bgp-over-quic] apply. Also, the non-TCP-related considerations of [RFC4271], [RFC4272], and [RFC7454] apply to the specification in this document.¶
By separating the control plane traffic over multiple sessions, the effect of a session-based vulnerability is reduced; only a single session is affected and not the whole connection. The result is increased resiliency.¶
On the other hand, a high number of BGP sessions may result in higher resource utilization and the risk of depletion. Also, more sessions may imply additional configuration and operational complexity. However, this risk is mitigated by the fact that BGP sessions typically require explicit configuration by the operator.¶
IANA is asked to assign a new Capability Code for the MultiStream Capability (Section 3) as follows:¶
| Value | Description | Reference | Change Controller |
|---|---|---|---|
| TBD1 | MultiStream Capability | [This Document] | IETF |
IANA is asked to assign three values from the OPEN Message Error subcodes registry as follows:¶
| Value | Name | Reference |
|---|---|---|
| TBD2 | MultiSession Conflicty | [This Document] |
| TBD3 | Session Capability Mismatch | [This Document] |
| TBD4 | Network Layer Protocol Mismatch | [This Document] |
This document references the text and procedures defined in [I-D.ietf-idr-bgp-multisession], and we are grateful for their contributions.¶
The authors would like to thank xx for review and comments.¶